Cancer cells that rely on vitamin B2 metabolism gain a built-in defense against ferroptosis, an iron-driven form of cell ...
Scientists have finally uncovered how bacteria naturally create multiple versions of powerful anti-cancer drugs, solving a mystery that has frustrated researchers for decades.
The hereditary disorder Huntington's disease has so far been considered incurable. Its clinical manifestations include ...
In this interview, AZoLife Sciences speaks with Boyd Butler, a microscopy and high-content screening expert at Molecular ...
A better understanding of neuroimmune communication is crucial for identifying conserved and divergent mechanisms across ...
The AI-based program AlphaFold predicts a protein's 3D structure with remarkable accuracy. However, it tends to reduce heterogeneous structures to a single dominant conformation, or shape, and ...
Europe's first TES spectrometer is transforming X-ray research with up to 1,000 times greater sensitivity, making once impossible experiments finally possible. Europe’s first and only TES spectrometer ...
Base editing in human embryos reveals that NANOG is the one gene required to form every body tissue. Cambridge’s landmark ...
New study identifies CAR3 as a key osteoblast protein promoting collagen mineralization, bone formation, and skeletal ...
A groundbreaking superconducting X-ray spectrometer has begun operation at BESSY II, giving Europe its first TES-based system ...
A new study reveals the dynamics of photosynthesis at the cellular level. Led by co-authors Professor Barry Bruce and ...
A lot of things need to go right on a molecular level for immune cells to launch an adaptive response to an infection.